Automated regional registration and characterization of corresponding microcalcification clusters on temporal pairs of mammograms for interval change analysis

Filev, Peter; Hadjiiski, Lubomir; Chan, Heang‐ping; Sahiner, Berkman; Ge, Jun; Helvie, Mark A.; Roubidoux, Marilyn; Zhou, Chuan

Automated regional registration and characterization of corresponding microcalcification clusters on temporal pairs of mammograms for interval change analysis

dc.contributor.author	Filev, Peter
dc.contributor.author	Hadjiiski, Lubomir
dc.contributor.author	Chan, Heang‐ping
dc.contributor.author	Sahiner, Berkman
dc.contributor.author	Ge, Jun
dc.contributor.author	Helvie, Mark A.
dc.contributor.author	Roubidoux, Marilyn
dc.contributor.author	Zhou, Chuan
dc.date.accessioned	2017-01-06T20:48:08Z
dc.date.available	2017-01-06T20:48:08Z
dc.date.issued	2008-12
dc.identifier.citation	Filev, Peter; Hadjiiski, Lubomir; Chan, Heang‐ping ; Sahiner, Berkman; Ge, Jun; Helvie, Mark A.; Roubidoux, Marilyn; Zhou, Chuan (2008). "Automated regional registration and characterization of corresponding microcalcification clusters on temporal pairs of mammograms for interval change analysis." Medical Physics 35(12): 5340-5350.
dc.identifier.issn	0094-2405
dc.identifier.issn	2473-4209
dc.identifier.uri	https://hdl.handle.net/2027.42/134935
dc.publisher	American Association of Physicists in Medicine
dc.publisher	Wiley Periodicals, Inc.
dc.subject.other	microcalcification classification
dc.subject.other	feature analysis
dc.subject.other	mammography
dc.subject.other	malignancy
dc.subject.other	Mammography
dc.subject.other	Medical imaging
dc.subject.other	Radiologists
dc.subject.other	Film mammography
dc.subject.other	Cluster analysis
dc.subject.other	Visibility
dc.subject.other	Computer aided diagnosis
dc.subject.other	Display devices
dc.subject.other	Entropy
dc.subject.other	Laser Doppler velocimetry
dc.subject.other	interval changes
dc.subject.other	Mammography
dc.subject.other	Xâ ray imaging
dc.subject.other	Registration
dc.subject.other	feature extraction
dc.subject.other	image classification
dc.subject.other	image registration
dc.subject.other	mammography
dc.subject.other	medical image processing
dc.subject.other	computerâ aided diagnosis
dc.title	Automated regional registration and characterization of corresponding microcalcification clusters on temporal pairs of mammograms for interval change analysis
dc.type	Article	en_US
dc.rights.robots	IndexNoFollow
dc.subject.hlbsecondlevel	Medicine (General)
dc.subject.hlbtoplevel	Health Sciences
dc.description.peerreviewed	Peer Reviewed
dc.contributor.affiliationum	Department of Radiology, The University of Michigan, Ann Arbor, Michigan 48109â 0904
dc.description.bitstreamurl	http://deepblue.lib.umich.edu/bitstream/2027.42/134935/1/mp2311.pdf
dc.identifier.doi	10.1118/1.3002311
dc.identifier.source	Medical Physics
dc.identifier.citedreference	H. P. Chan, S. C. B. Lo, B. Sahiner, K. L. Lam, and M. A. Helvie, â Computerâ aided detection of mammographic microcalcifications: Pattern recognition with an artificial neural network,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.597428 22, 1555 â 1567 ( 1995 ).
dc.identifier.citedreference	S. A. Feig, C. J. Dâ Orsi, R. E. Hendrick, V. P. Jackson, D. B. Kopans, B. Monsees, E. A. Sickles, C. B. Stelling, M. Zinninger, and P. Wilcoxâ Buchalla, â American College of Radiology guidelines for breast cancer screening,â AJR, Am. J. Roentgenol. AAJRDX --> 0361‐803X --> 171, 29 â 33 ( 1998 ).
dc.identifier.citedreference	B. Cady and J. S. Michaelson, â The lifeâ sparing potential of mammographic screening,â Cancer (N.Y.) CANCAR --> 0008‐543X --> 10.1002/1097â 0142(20010501)91:9<1699::AIDâ CNCR1186>3.0.CO;2â W 91, 1699 â 1703 ( 2001 ).
dc.identifier.citedreference	L. W. Bassett, B. Shayestehfar, and I. Hirbawi, â Obtaining previous mammograms for comparison: Usefullness and costs,â AJR, Am. J. Roentgenol. AAJRDX --> 0361‐803X --> 163, 1083 â 1086 ( 1994 ).
dc.identifier.citedreference	E. S. Burnside, E. A. Sickles, R. E. Sohlich, and K. E. Dee, â Differential value of comparison with previous examinations in diagnostic versus screening mammography,â AJR, Am. J. Roentgenol. AAJRDX --> 0361‐803X --> 179, 1173 â 1177 ( 2002 ).
dc.identifier.citedreference	H. P. Chan, D. Wei, K. L. Lam, B. Sahiner, M. A. Helvie, D. D. Adler, and M. M. Goodsitt, â Classification of malignant and benign microcalcifications by texture analysis,â Med. Phys. MPHYA6 --> 0094‐2405 --> 22, 938 ( 1995 ).
dc.identifier.citedreference	Y. Jiang, R. M. Nishikawa, D. E. Wolverton, C. E. Metz, M. L. Giger, R. A. Schmidt, C. J. Vyborny, and K. Doi, â Malignant and benign clustered microcalcifications: Automated feature analysis and classification,â Radiology RADLAX --> 0033‐8419 --> 198, 671 â 678 ( 1996 ).
dc.identifier.citedreference	H. P. Chan, B. Sahiner, N. Petrick, M. A. Helvie, K. L. Leung, D. D. Adler, and M. M. Goodsitt, â Computerized classification of malignant and benign microcalcifications on mammograms: Texture analysis using an artificial neural network,â Phys. Med. Biol. PHMBA7 --> 0031‐9155 --> 10.1088/0031â 9155/42/3/008 42, 549 â 567 ( 1997 ).
dc.identifier.citedreference	H.â P. Chan, B. Sahiner, K. L. Lam, N. Petrick, M. A. Helvie, M. M. Goodsitt, and D. D. Adler, â Computerized analysis of mammographic microcalcifications in morphological and texture feature space,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.598389 25, 2007 â 2019 ( 1998 ).
dc.identifier.citedreference	Y. Jiang, R. M. Nishikawa, and J. Papaioannou, â Dependence of computer classification of clustered microcalcifications on the correct detection of microcalcifications,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1397715 28, 1949 â 1957 ( 2001 ).
dc.identifier.citedreference	M. F. Salfity, R. M. Nishikawa, Y. Jiang, and J. Papaioannou, â The use of a priori information in the detection of mammographic microcalcifications to improve their classification,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1559884 30, 823 â 831 ( 2003 ).
dc.identifier.citedreference	S. Paquerault, L. M. Yarusso, J. Papaioannou, Y. Jiang, and R. M. Nishikawa, â Radial gradientâ based segmentation of mammographic microcalcifications: Observer evaluation and effect on CAD performance,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1767692 31, 2648 â 2657 ( 2004 ).
dc.identifier.citedreference	M. Kallergi, â Computerâ aided diagnosis of mammographic microcalcification clusters,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1637972 31, 314 â 326 ( 2004 ).
dc.identifier.citedreference	I. Leichter, R. Lederman, S. S. Buchbinder, P. Bamberger, B. Novak, and S. Fields, â Computerized evaluation of mammographic lesions: What diagnostic role does the shape of the individual microcalcifications play compared with the geometry of the cluster?,â AJR, Am. J. Roentgenol. AAJRDX --> 0361‐803X --> 2004, 705 â 712 ( 2004 ).
dc.identifier.citedreference	L. Wei, Y. Yang, R. M. Nishikawa, and Y. Jiang, â A study on several machineâ learning methods for classification of malignant and benign clustered microcalcifications,â IEEE Trans. Med. Imaging ITMID4 --> 0278‐0062 --> 10.1109/TMI.2004.842457 24, 371 â 380 ( 2005 ).
dc.identifier.citedreference	L. M. Hadjiiski, H. P. Chan, B. Sahiner, N. Petrick, M. A. Helvie, M. A. Roubidoux, and M. N. Gurcan, â Computerâ aided characterization of malignant and benign microcalcification clusters based on the analysis of temporal change of mammographic features,â Proc. SPIE PSISDG --> 0277‐786X --> 4684, 749 â 753 ( 2002 ).
dc.identifier.citedreference	L. M. Hadjiiski, H. P. Chan, B. Sahiner, M. A. Helvie, M. A. Roubidoux, and C. Zhou, â Interval change analysis based on computerized regional registration of corresponding microcalcification clusters on temporal pairs of mammograms,â RSNA Program Book 2004.
dc.identifier.citedreference	L. M. Hadjiiski, D. Drouillard, H. P. Chan, B. Sahiner, M. A. Helvie, M. A. Roubidoux, and C. Zhou, â Characterization of corresponding microcalcification clusters on temporal pairs of mammograms for interval change analysisâ Comparison of classifiers,â Proc. SPIE PSISDG --> 0277‐786X --> 6144, 5Q1 â 5Q6 ( 2006 ).
dc.identifier.citedreference	L. M. Hadjiiski, B. Sahiner, H. P. Chan, N. Petrick, M. A. Helvie, and M. N. Gurcan, â Analysis of temporal change of mammographic features: Computerâ aided classification of malignant and benign breast masses,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1412242 28, 2309 â 2317 ( 2001 ).
dc.identifier.citedreference	L. M. Hadjiiski et al., â Improvement of radiologistsâ characterization of malignant and benign breast masses in serial mammograms by computerâ aided diagnosis: An ROC study,â Radiology RADLAX --> 0033‐8419 --> 233, 255 â 265 ( 2004 ).
dc.identifier.citedreference	S. Timp, C. Varela, and N. Karssemeijer, â Temporal change analysis for characterization of mass lesions in mammography,â IEEE Trans. Med. Imaging ITMID4 --> 0278‐0062 --> 10.1109/TMI.2007.897392 26, 945 â 953 ( 2007 ).
dc.identifier.citedreference	L. M. Hadjiiski, H. P. Chan, B. Sahiner, N. Petrick, and M. A. Helvie, â Automated registration of breast lesions in temporal pairs of mammograms for interval change analysisâ Local affine transformation for improved localization,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1376134 28, 1070 â 1079 ( 2001 ).
dc.identifier.citedreference	H. P. Chan, K. Doi, S. Galhotra, C. J. Vyborny, H. MacMahon, and P. M. Jokich, â Image feature analysis and computerâ aided diagnosis in digital radiography. 1. Automated detection of microcalcifications in mammography,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.596065 14, 538 â 548 ( 1987 ).
dc.identifier.citedreference	M. M. Galloway, â Texture classification using gray level run lengths,â Comput. Graph. Image Process. CGIPBG --> 0146‐664X --> 10.1016/S0146â 664X(75)80008â 6 4, 172 â 179 ( 1975 ).
dc.identifier.citedreference	J. S. Weszka, C. R. Dyer, and A. Rosenfeld, â A comparative study of texture measures for terrain classification,â IEEE Trans. Syst. Man Cybern. ISYMAW --> 0018‐9472 --> 6, 269 â 285 ( 1976 ).
dc.identifier.citedreference	B. Sahiner, H. P. Chan, N. Petrick, D. Wei, M. A. Helvie, D. D. Adler, and M. M. Goodsitt, â Classification of mass and normal breast tissue: A convolution neural network classifier with spatial domain and texture images,â IEEE Trans. Med. Imaging ITMID4 --> 0278‐0062 --> 10.1109/42.538937 15, 598 â 610 ( 1996 ).
dc.identifier.citedreference	R. M. Haralick, K. Shanmugam, and I. Dinstein, â Texture features for image classification,â IEEE Trans. Syst. Man Cybern. ISYMAW --> 0018‐9472 --> 10.1109/TSMC.1973.4309314 3, 610 â 621 ( 1973 ).
dc.identifier.citedreference	C. E. Metz, â ROC methodology in radiologic imaging,â Invest. Radiol. INVRAV --> 0020‐9996 --> 10.1097/00004424â 198609000â 00009 21, 720 â 733 ( 1986 ).
dc.identifier.citedreference	C. E. Metz, J. H. Shen, and B. A. Herman, â New methods for estimating a binormal ROC curve from continuouslyâ distributed test results,â Annual Meeting of the American Statistical Association (Anaheim, CA, 1990).
dc.identifier.citedreference	Y. Jiang, C. E. Metz, and R. M. Nishikawa, â A receiver operating characteristic partial area index for highly sensitive diagnostic tests,â Radiology RADLAX --> 0033‐8419 --> 201, 745 â 750 ( 1996 ).
dc.identifier.citedreference	B. Efron, â Estimating the error rate of a prediction rule: Improvement on crossâ validation,â J. Am. Stat. Assoc. JSTNAL --> 0162‐1459 --> 10.2307/2288636 78, 316 â 331 ( 1983 ).
dc.identifier.citedreference	B. Efron and R. Tibshirani, â Improvements on crossâ validation: The 632 + bootstrap method,â J. Am. Stat. Assoc. JSTNAL --> 0162‐1459 --> 10.2307/2965703 92, 548 â 560 ( 1997 ).
dc.identifier.citedreference	B. Sahiner, H. P. Chan, and L. Hadjiiski, â Classifier performance prediction for computerâ aided diagnosis using a limited data set,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.2868757 35, 1559 â 1570 ( 2008 ).
dc.identifier.citedreference	S. Paquerault, B. Sahiner, N. Petrick, L. M. Hadjiiski, M. N. Gurcan, C. Zhou, and M. A. Helvie, â Prediction of object location in different views using geometrical models,â presented at the IWDMâ 2000, Toronto, Canada, June 11â 14, 2000; in Digital Mammography IWDM 2000: 5th International Workshop on Digital Mammography, edited by M. J. Yaffe ( Medical Physics, Madison, WI, 2000 ), pp. 748 â 755.
dc.identifier.citedreference	S. Paquerault, N. Petrick, H. P. Chan, B. Sahiner, and M. A. Helvie, â Improvement of computerized mass detection on mammograms: Fusion of twoâ view information,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1446098 29, 238 â 247 ( 2002 ).
dc.identifier.citedreference	B. Sahiner, H.â P. Chan, L. M. Hadjiiski, M. A. Helvie, C. Paramagul, J. Ge, J. Wei, and C. Zhou, â Joint twoâ view information for computerized detection of microcalcifications on mammograms,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.2208919 33, 2574 â 2585 ( 2006 ).
dc.identifier.citedreference	S. Gupta and M. K. Markey, â Correspondence in texture features between two mammographic views,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.1915013 32, 1598 â 1606 ( 2005 ).
dc.identifier.citedreference	B. Zheng, J. K. Leader, G. S. Abrams, A. H. Lu, L. P. Wallace, G. S. Maitz, and D. Gur, â Multiviewâ based computerâ aided detection scheme for breast masses,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.2237476 33, 3135 â 3143 ( 2006 ).
dc.identifier.citedreference	Z. Huo, M. L. Giger, and C. J. Vyborny, â Computerized analysis of multipleâ mammographic views: Potential usefulness of special view mammograms in computerâ aided diagnosis,â IEEE Trans. Med. Imaging ITMID4 --> 0278‐0062 --> 10.1109/42.974923 20, 1285 â 1292 ( 2001 ).
dc.identifier.citedreference	S. van Engeland and N. Karssemeijer, â Combining two mammographic projections in a computer aided mass detection method,â Med. Phys. MPHYA6 --> 0094‐2405 --> 10.1118/1.2436974 34, 898 â 905 ( 2007 ).
dc.identifier.citedreference	L. M. Hadjiiski et al., â Breast masses: Computerâ aided diagnosis with serial mammograms,â Radiology RADLAX --> 0033‐8419 --> 240, 343 â 356 ( 2006 ).
dc.owningcollname	Interdisciplinary and Peer-Reviewed

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